HAL Id: hal-01433575
https://hal-mines-paristech.archives-ouvertes.fr/hal-01433575
Submitted on 17 Jan 2017
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Broadcast And Surveillance TechnologIes Over Networks
Mark Verhoeven, Corinne Ancourt
To cite this version:
Mark Verhoeven, Corinne Ancourt. Broadcast And Surveillance TechnologIes Over Networks. Nano Electronics Forum, Nov 2016, Rome, Italy. �hal-01433575�
B
roadcast
A
nd
S
urveillance
T
echnolog
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es
O
ver
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etworks
General description
The main objective of the BASTION project is to research and develop new applications for the Broadcast Market, and for the Security and Surveillance Markets.
Both applications will be built on top of the Internet Protocol
network, which will allow distributing the applications over several physical sites. The cameras will be located on one or more sites, and the monitoring/control room will be on a separate site. The
main benefit of this distribution is that it will enable increasing the efficiency for producing live Broadcast content by a factor of 2-3, by sending only camera personnel to remote sites, and having the main production team in the home studio to do several programs in a single day. Integrating high-quality and high-resolution (HD
and higher) image sensors in a networked infrastructure to detect, recognize and identify Surveillance and Security issues when
observing long distance or large-scale events.
Goals/Objectives
The most important technological breakthroughs that BASTION will provide are:
Virtual Network technology to provide Quality of Service for
video streams over the Ethernet network.
CMOS imaging sensors with High Dynamic Range, ultra low
noise, and combining visible UV and near infra-red light. Ultra-low latency H265 video codec.
Unified design methodology for hardware and software.
Societal impact/Results
In BASTION we will work on surveillance cameras that will
target the surveillance and protection of critical infrastructures (such as airports, public transportation). One of the key
requirements is to define systems that protect from
vulnerability in a cost/effective manner, without restricting the mobility of the people and without disturbing their daily life.
BASTION will be a key enabler for multimedia broadcast
services by focusing on the content creation side. The
consortium contains the complete chain from the event that has to be broadcasted (e.g. world championship, Olympic
Games) to the channel that is to be transmitted (4G, video over IP) to the consumers.
In BASTION we will do a proof of concept for developing
hardware in OpenCL. Both universities and industries will contribute to this, and will establish in this way an
open standard ecosystem of OpenCL based hardware
development.
By moving to distributed studios based on video over the
Internet Protocol, it will be easier to implement new video formats, since the new standards can be transported over
the same physical network infrastructure. This infrastructure will enable new video sources and content management, like Ultra High Definition, 3DTV, slow motion, point of view
cameras, surround video, audio, metadata, all kind of control signals, intercom.
Additional information
The project will conclude by showing 2 demonstrators:
A broadcast demonstrator consisting of several studios
connected through the public Internet, containing Ultra High Definition cameras, low-latency high-quality H265 video
compression, and layers to manage the network.
A surveillance and security demonstrator consisting of
High Dynamic Range sensors in visible, near Infra Red and UV wavelengths, at least quad HD cameras, compressed video
over IP transport.
Video processing
CIU LAN node1
Axon LAN node2 Axon PC1 Altera H265 TCP PC2: QoS Altera H265 Dec Adimec Adimec CAM1 HDMI: 4K and/or HD, multiview LAN2 H265 over IP H265 over IP LAN1 SDI SMPTE 2022-6 `Ref video LDX86 camera to IP-XCU1 SMPTE2022-6 CAM2 CAM3 GrassValley GrassValley GrassValley SMPTE 2022-6 GrassValley 3G-SDI out 3G-SDI out 3G-SDI out 3G-SDI out Sagem PTP grand master Axon LAN node 1? or
SPG8000 Tektronix
fibers
LAN node3 GrassValley Ref video 4 x 3G-SDI Control: Axon Production: Grass Valley LAN node4, IP multiviewer Audio receiver: Seperate stream or embedded HDMI conv HDMI: 4K and/or HD, multiview IP LAN4 CAM4 Basler camera LAN3 WAN IP IP
Partners:
Countries involved: Belgium France The Netherlands United KingdomProject leader: Mark Verhoeven Company: Axon Digital Design BV
Email: mark.verhoeven@axon.tv Tel.: +31 6 51 71 06 82
www.projectbastion.eu
www.eniac.eu
Chip-in-board sensor ONYX-HDTV sensor SDI to IP gateway hardware
